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Autori principali: Forslund, Ola Kenji, Liu, Xiaoxiong, Shin, Soohyeon, Lin, Chun, Horio, Masafumi, Wang, Qisi, Kramer, Kevin, Mukherjee, Saumya, Kim, Timur, Cacho, Cephise, Wang, Chennan, Shang, Tian, Ukleev, Victor, White, Jonathan S., Puphal, Pascal, Sassa, Yasmine, Pomjakushina, Ekaterina, Neupert, Titus, Chang, Johan
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2502.11702
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author Forslund, Ola Kenji
Liu, Xiaoxiong
Shin, Soohyeon
Lin, Chun
Horio, Masafumi
Wang, Qisi
Kramer, Kevin
Mukherjee, Saumya
Kim, Timur
Cacho, Cephise
Wang, Chennan
Shang, Tian
Ukleev, Victor
White, Jonathan S.
Puphal, Pascal
Sassa, Yasmine
Pomjakushina, Ekaterina
Neupert, Titus
Chang, Johan
author_facet Forslund, Ola Kenji
Liu, Xiaoxiong
Shin, Soohyeon
Lin, Chun
Horio, Masafumi
Wang, Qisi
Kramer, Kevin
Mukherjee, Saumya
Kim, Timur
Cacho, Cephise
Wang, Chennan
Shang, Tian
Ukleev, Victor
White, Jonathan S.
Puphal, Pascal
Sassa, Yasmine
Pomjakushina, Ekaterina
Neupert, Titus
Chang, Johan
contents The anomalous Hall {\color{black} e}ffect (AHE) has emerged as a key indicator of time-reversal symmetry breaking (TRSB) and topological features in electronic band structures. Absent of a magnetic field, the AHE requires spontaneous TRSB but has proven hard to probe due to averaging over domains. The anomalous component of the Hall effect is thus frequently derived from extrapolating the magnetic field dependence of the Hall response. We show that discerning whether the AHE is an intrinsic property of the field free system becomes intricate in the presence of strong magnetic fluctuations. {\color{black}As a study case,} we use the Weyl semimetal PrAlGe, where TRSB can be toggled via a ferromagnetic transition, providing a transparent view of the AHE's topological origin. Through a combination of thermodynamic, transport and muon spin relaxation measurements, we contrast the behaviour below the ferromagnetic transition temperature to that of strong magnetic fluctuations above. Our results {\color{black}on PrAlGe provide general insights into the} interpretation of anomalous Hall signals in systems where TRSB is debated, such as families of Kagome metals or certain transition metal dichalcogenides.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Anatomy of anomalous Hall effect due to magnetic fluctuations
Forslund, Ola Kenji
Liu, Xiaoxiong
Shin, Soohyeon
Lin, Chun
Horio, Masafumi
Wang, Qisi
Kramer, Kevin
Mukherjee, Saumya
Kim, Timur
Cacho, Cephise
Wang, Chennan
Shang, Tian
Ukleev, Victor
White, Jonathan S.
Puphal, Pascal
Sassa, Yasmine
Pomjakushina, Ekaterina
Neupert, Titus
Chang, Johan
Strongly Correlated Electrons
The anomalous Hall {\color{black} e}ffect (AHE) has emerged as a key indicator of time-reversal symmetry breaking (TRSB) and topological features in electronic band structures. Absent of a magnetic field, the AHE requires spontaneous TRSB but has proven hard to probe due to averaging over domains. The anomalous component of the Hall effect is thus frequently derived from extrapolating the magnetic field dependence of the Hall response. We show that discerning whether the AHE is an intrinsic property of the field free system becomes intricate in the presence of strong magnetic fluctuations. {\color{black}As a study case,} we use the Weyl semimetal PrAlGe, where TRSB can be toggled via a ferromagnetic transition, providing a transparent view of the AHE's topological origin. Through a combination of thermodynamic, transport and muon spin relaxation measurements, we contrast the behaviour below the ferromagnetic transition temperature to that of strong magnetic fluctuations above. Our results {\color{black}on PrAlGe provide general insights into the} interpretation of anomalous Hall signals in systems where TRSB is debated, such as families of Kagome metals or certain transition metal dichalcogenides.
title Anatomy of anomalous Hall effect due to magnetic fluctuations
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2502.11702